101 research outputs found
sj-pdf-1-cat-10.1177_10760296221145168 - Supplemental material for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis
Supplemental material, sj-pdf-1-cat-10.1177_10760296221145168 for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis by Junye Ge, Wenqiang Han, Chuanzhen Ma, Kellina Maduray, Tongshuai Chen and Jingquan Zhong in Clinical and Applied Thrombosis/Hemostasis</p
sj-docx-3-cat-10.1177_10760296221145168 - Supplemental material for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis
Supplemental material, sj-docx-3-cat-10.1177_10760296221145168 for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis by Junye Ge, Wenqiang Han, Chuanzhen Ma, Kellina Maduray, Tongshuai Chen and Jingquan Zhong in Clinical and Applied Thrombosis/Hemostasis</p
sj-doc-4-cat-10.1177_10760296221145168 - Supplemental material for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis
Supplemental material, sj-doc-4-cat-10.1177_10760296221145168 for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis by Junye Ge, Wenqiang Han, Chuanzhen Ma, Kellina Maduray, Tongshuai Chen and Jingquan Zhong in Clinical and Applied Thrombosis/Hemostasis</p
sj-doc-2-cat-10.1177_10760296221145168 - Supplemental material for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis
Supplemental material, sj-doc-2-cat-10.1177_10760296221145168 for Efficacy and Safety of NOACs Compared With VKAs for Patients With Atrial Fibrillation After Transcatheter Aortic Valve Implantation: A System Review and Meta-Analysis by Junye Ge, Wenqiang Han, Chuanzhen Ma, Kellina Maduray, Tongshuai Chen and Jingquan Zhong in Clinical and Applied Thrombosis/Hemostasis</p
Petrogenesis and Tectonic Setting of the Highly Fractionated Junye Granitic Intrusion in the Yiliu Tungsten Polymetallic Deposit, Guangdong Province, South China: Constraints from Geochemistry and Sr-Nd-Pb-Hf Isotopes
The Yiliu tungsten polymetallic deposit, located in the south central portion of the Nanling nonferrous metal metallogenic province in South China, is an area with common Yanshanian tectonothermal events. Early Yanshanian magmatism leads to the emplacement of voluminous tungsten-bearing granite intrusions, such as the Baoshan, Benggangling and Junye plutons, which are considered temporally and spatially associated with W-polymetallic mineralization in the Yiliu region. Here, we investigate the basic geological and petrological characteristics of the Junye granites, and present major and trace element geochemical data and bulk-rock Sr-Nd-Pb-Hf isotopic data to gain insight into the petrogenesis and tectonic setting of granitic intrusions in the region. The Junye granites are high-K calc-alkaline and metaluminous to weakly peraluminous [A/CNK = molar ratios of Al2O3/(CaO + Na2O + K2O) = 0.97–1.02] with enrichment in SiO2 (75.68–76.44 wt.%), relatively high total alkalis (K2O + Na2O = 8.06–8.45 wt.%) with K2O/Na2O ratios ranging from 1.12 to 1.42, and moderate Al2O3 (12.62–13.00 wt.%), but low in P2O5 (<0.01 wt.%), MgO (0.02–0.04 wt.%), CaO (0.78–0.95 wt.%) and Fe2O3T (0.93–1.07 wt.%). They show spectacular tetrad effect REE (rare earth element) patterns with low ΣREE content (53.2–145.3 ppm), negative Eu anomalies (δEu = 0.09–0.17) and slight enrichment of LREEs (light rare earth elements) relative to HREEs (heavy rare earth elements). The granites are enriched in Rb (481–860 ppm), Th (16.2–46.1 ppm) and U (25.4–40.8 ppm) but depleted in Ba (1.0–5.8 ppm), Sr (11.1–23.4 ppm), P (9.5–26.7 ppm) and Ti (241–393 ppm). All geochemical features lead us to interpret the Junye granites as highly fractionated I-type granites. These granites underwent intense interaction between highly evolved magma and volatile-rich hydrothermal fluids during the late stage of formation, and accompanied fractional crystallization of biotite, plagioclase and accessory minerals, such as apatite, monazite and allanite. Additionally, the granites show uniform Nd isotopic ratios with calculated εNd (152 Ma) values of −8.28 to −8.91 and Nd model age (TDM2) of 1645 to 1698 Ma, stable age-corrected initial Pb isotopic compositions with (206Pb/204Pb)i of 18.646–19.010, (207Pb/204Pb)i of 15.767–15.786 and (208Pb/204Pb)i of 39.113–39.159, respectively, and homogeneous Hf isotopic values yielding εHf (152 Ma) values from −6.9 to −9.5 with TDM2 ages of 1680 to 2214 Ma, collectively suggesting that the granitic magma was probably derived from the remelting of ancient infracrustal materials in the basement of the Nanling region. Consequently, we consider that the Junye granites are the products of partial melting of Paleoproterozoic infracrustal medium- to high-K metamorphic basaltic rocks in the Cathaysia Block, which was caused by the underplating of coeval mantle basaltic magmas that provided abundant heat energy for melting in a tectonic setting, with lithospheric extension and thinning during the late Jurassic period
Superior lithium ion conduction of polymer electrolyte with comb-like structure via solvent-free copolymerization for bipolar all-solid-state lithium battery
Here, novel solid polymer electrolytes were synthesized by solvent-free thiol-ene copolymerization with different chain lengths. It was demonstrated that the optimal polymer electrolyte exhibited excellent thermal stability up to 331 degrees C, considerable ionic conductivity of 5.05 x 10(-5) S cm(-1) at ambient temperature, a wide electrochemical window (0-5.05 V) and good compatibility with a lithium metal electrode. In addition, a solid-state monopolar LiFePO4//Li battery with an integrated cathode and electrolyte was assembled and delivered a maximum capacity of 167.39 mA h g(-1), which is close to the theoretical capacity of the LiFePO4 cathode. Moreover, the discharge capacity remained at 122.17 mA h g(-1) after 200 cycles at 60 degrees C, which represents a capacity retention of 75%. Remarkably, the monopolar cell could cycle well at room temperature, with a stabilized discharge capacity of 100 mA h g(-1) at 0.1C in the 60(th) cycle. In particular, taking advantage of the non-fluidity of solid electrolytes, a bipolar cell with a high voltage of 6.07 V was also assembled, which was extremely beneficial for improving the volumetric energy density and decreasing the cost, as well as enhancing the reliability of cell packs. The bipolar cell delivered an initial specific capacity of 136.3 mA h g(-1) with a retention of 76% after 40 cycles. Furthermore, the bipolar cell can work well under conditions of bending, cutting and even penetration by a nail. Consequently, this work provides an advanced strategy for the facile synthesis of polymer electrolytes, as well as the fabrication of bipolar cells with high voltages, which favors improvements in energy density
Interface Re-Engineering of Li10GeP2S12 Electrolyte and Lithium anode for All-Solid-State Lithium Batteries with Ultralong Cycle Life
An ingenious interface re-engineering strategy was applied to in situ prepare a manipulated LiH2PO4 protective layer on the surface of Li anode for circumventing the intrinsic chemical stability issues of Li10GeP2S12 (LGPS) to Li metal, specifically the migration of mixed ionic-electronic reactants to the inner of LGPS, and the kinetically sluggish reactions in the interface. As consequence, the stability of LGPS with Li metal increased substantially and the cycling of symmetric Li/Li cell showed that the polarization voltage could keep relative stable for over 950 h at 0.1 mA cm(-2) within +/- 0.05 V. The optimized ASSLiB of LiCoO2 (LCO)/LGPS/Li with interface-engineered structure was able to deliver long cycle life and high capacity, i.e., a reversible discharge capacity of 131.1 mAh g(-1) at the initial cycle and 113.7 mAh g(-1) at the 500th cycle under 0.1 C with a retention of 86.7%. In addition, the factors effected on the interphases formation of the LGPS/Li interface were analyzed, and the mechanism of the stability between LGPS and Li anode with protective layer was further investigated. Moreover, the probable causes of battery degradation were also explored. Above all, this work would give an alternative strategy for the modification of Li anode in high energy density solid-state lithium metal batteries
An investigation on fuzzy optimal cut vertices and fuzzy optimal cut edges with their applications
Fuzzy graphical models are valuable for analyzing the robustness of networks. Specifically, attacks on certain nodes (edges) in the network can have an avalanche effect on the robustness of the network, and these nodes (edges) correspond to the cut vertices (edges) in the fuzzy graph model. However, the definition of fuzzy cut vertices (edges) ignores the length of paths in a fuzzy graph. To address this flaw, we give the concept of fuzzy optimal cut vertices (edges). In particular, the properties of fuzzy optimal cut vertices (edges) in special fuzzy graphs are explored, and then the corresponding criteria are given. Moreover, we discuss the relations between strong edges, the weakest edges or fuzzy optimal cut vertices and fuzzy optimal cut edges. Finally, the effectiveness of fuzzy optimal cut vertices (edges) in analyzing network robustness is verified by practical examples
A CMOS Active Rectifier with Efficiency-Improving and Digitally Adaptive Delay Compensation for Wireless Power Transfer Systems
A CMOS active rectifier with digitally adaptive delay compensation for power efficiency improvement is presented in this work. The power transistors are turned on and turned off in advance under the control of the regenerated compensation signals, which are generated by the proposed compensation control circuit; therefore, the reverse current is eliminated, and the efficiency is increased. Simulation results in a standard 0.18 μm CMOS process show that the turn-on and turn-off delay of the rectifier is effectively compensated. The power efficiency is up to 90.6% when the proposed rectifier works at the operation frequency of 13.56 MHz
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